## Dataset referencing 2020TA01

Phys.Rev. C 101, 014620 (2020)

S.Tagami, M.Tanaka, M.Takechi, M.Fukuda, M.Yahiro

*Chiral g-matrix folding-model approach to reaction cross sections for scattering of Ca isotopes on a C target*

NUCLEAR STRUCTURE ^{40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,62,64}Ca; calculated β and γ deformation parameters, even and odd driplines, binding energies, charge, proton, neutron and matter radii, neutron skin for the ground states using Gogny-D1S Hartree-Fock-Bogoliubov (GHFB) theory with and without the angular momentum projection (AMP). Comparison with experimental data.

NUCLEAR REACTIONS ^{12}C(^{40}Ca, X), (^{41}Ca, X), (^{42}Ca, X), (^{43}Ca, X), (^{44}Ca, X), (^{45}Ca, X), (^{46}Ca, X), (^{47}Ca, X), (^{48}Ca, X), (^{49}Ca, X), (^{50}Ca, X), (^{51}Ca, X), (^{52}Ca, X), (^{53}Ca, X), (^{54}Ca, X), (^{55}Ca, X), (^{56}Ca, X), (^{57}Ca, X), (^{58}Ca, X), (^{59}Ca, X), (^{60}Ca, X), (^{62}Ca, X), (^{64}Ca, X), E=280, 250.7 MeV; calculated reaction σ(E) using chiral g-matrix double-folding model (DFM), and compared with GHFB+AMP density, and available experimental data. ^{9}Be, ^{12}C, ^{27}Al(^{12}C, X), E=30-400 MeV; calculated reaction σ(E) using chiral g-matrix double-folding model (DFM). Comparison with results from t-matrix DFM densities, and experimental data.

doi: 10.1103/PhysRevC.101.014620

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